WO2012003679A1 - System and method for acquiring statistics of navigation information - Google Patents

Abstract

A system and a method for acquiring statistics of navigation information are provided in the present invention. The above mentioned system includes: a mobile terminal module, for regularly sending the position data of its own and the time information corresponding to the position data to a position service module; and a position service module, for collecting statistics of the position data and the corresponding time information to acquire navigation information. By applying the system and the method provided in the present invention, the traffic of the hotspot positions can be updated in real time, and the credibility of this statistics acquiring mode is high, so that more accurate navigation information can be provided to a mobile communication terminal user.

Description

导航信息的统计获取***及方法 技术领域 本发明涉及通信领域， 更具体地说， 涉及一种导航信息的统计获取*** 及方法。 背景技术 目前， 人们都喜欢从互联网上了解各种店铺的推荐信息， 特别是关于饮 食娱乐方面。 例如： 吃喝玩乐网、 大众点评网等， 这些网站提供各种吃喝玩 乐信息， 并统计各家店面的访问量， 综合各种评价给出月度或年度最佳店面 的门户网站。 但这种信息的统计首先需要消费者在门户网站上进行注册， 才 能对各家店面进行推荐、 评价等， 而现在大多数人只喜欢查阅信息， 并不喜 欢完善信息， 且门户网站也存在很多 "马甲"， 因此其上的统计值或评价并不 一定公正、 实时。 由此可见， 传统的导航信息 （即与热点位置的访问量相关的统计数据， 例如， 热点位置访问量统计数值、 热点位置的推荐值或排行榜） 的获取完全 来源于门户网站上的统计信息， 不仅满足不了实时性需求， 统计值也未必公 正， 并且无法满足消费者对导航信息越来越多样化的需求。 因此， 如何改进 热点位置访问量的统计， 以得到一个公正实时的导航信息以供移动通信终端 用户进行查询， 是当前极需解决的问题。 发明内容 针对相关技术中传统的导航信息的获取完全来源于门户网站上的统计信 息， 无法满足实时性需求， 且统计值也未必公正的问题， 本发明提供了一种 导航信息的统计获取方法及***， 以解决上述问题至少之一。 根据本发明的一个方面， 提供了一种导航信息的统计获取***。 才艮据本发明的导航信息的统计获取***包括： 移动终端模块， 用于定时 将其位置数据及该位置数据对应的时间信息发送至位置服务模块； 位置服务 模块， 用于统计上述位置数据及其对应的时间信息以获取导航信息； 定位月艮 务模块， 用于定时接收移动终端模块的定位请求， 对移动终端模块进行定位 处理， 并将运算得到的定位结果发送至移动终端模块； 移动终端模块， 还用 于处理定位结果得到位置数据。 进一步地， 上述移动终端模块包括： GPS模块， 用于定时向定位艮务模 块发送定位请求， 并接收定位艮务模块返回的定位结果； GPS开关模块， 用 于控制 GPS模块的开启与关闭。 进一步地， 上述移动终端模块包括： 存储模块， 用于存储位置数据及其 对应的时间信息； 清除模块， 用于在位置服务模块发起接收到位置数据及其 对应的时间信息的通知时， 删除位置数据及其对应的时间信息。 进一步地， 上述位置服务模块包括： 映射模块， 用于实时将收集到的位 置数据与地理信息进行匹配， 以确定热点位置； 统计模块， 用于按照时间顺 序分别统计热点位置的访问量； 通知模块， 用于在接收到位置数据及其对应 的时间信息时， 向移动终端模块发送通知信息。 根据本发明的另一方面， 提供了一种导航信息的统计获取***。 才艮据本发明的导航信息的统计获取***包括： 移动终端模块， 用于确定 其位置数据对应的热点位置及该热点位置的访问量， 并将获取的热点位置及 其访问量定时上报至网络服务提供模块； 网络服务提供模块， 用于对移动终 端模块上报的热点位置及其访问量的信息进行统计， 获取导航信息； 定位服 务模块， 用于定时接收移动终端模块的定位请求， 对移动终端模块进行定位 处理， 并将运算得到的定位结果发送至移动终端模块； 移动终端模块， 还用 于处理定位结果得到位置数据。 进一步地， 上述移动终端模块包括： GPS模块， 用于定时向定位艮务模 块发送定位请求， 并接收定位服务器返回的定位结果； GPS开关模块， 用于 控制 GPS模块的开启与关闭。 进一步地， 上述移动终端模块包括： 位置服务资源数据模块， 用于存储 位置数据及其对应的时间信息； 清除模块， 用于定时删除位置数据及其对应 的时间信息。 进一步地， 上述移动终端模块包括： 映射模块， 用于实时将收集到的位 置数据与地理信息进行匹配， 以确定热点位置； 统计模块， 用于按照时间顺 序分别统计热点位置的访问量。 才艮据本发明的又一方面， 提供了一种导航信息的统计获取方法。 才艮据本发明的导航信息的统计获取方法包括： 定时确定移动终端的位置 数据及位置数据对应的时间信息； 统计位置数据及其对应的时间信息以确定 导航信息。 进一步地， 上述定时确定移动终端的位置数据及位置数据对应的时间信 息包括： 移动终端定时向定位艮务器发送定位请求； 定位艮务器对移动终端 进行定位处理， 并将运算得到的定位结果发送至移动终端； 移动终端处理定 位结果得到位置数据， 并上报给位置服务器。 进一步地 ,上述统计位置数据及其对应的时间信息以确定导航信息包括： 位置 艮务器实时将收集到的位置数据与地理信息进行匹配， 确定热点位置； 位置服务器按照时间顺序分别统计热点位置的访问量； 位置服务器根据热点 位置及其访问量统计获取导航信息。 进一步地， 上述位置 艮务器分别统计热点位置的访问量包括： 位置艮务 器判断移动终端位于热点位置的时长是否大于与热点位置的类型相对应的门 卩艮； 如果是， 位置服务器对热点位置的访问量加 1。 进一步地 ,上述统计位置数据及其对应的时间信息以确定导航信息包括： 移动终端实时将收集到的位置数据与地理信息进行匹配， 确定热点位置； 移 动终端按照时间顺序分别统计热点位置的访问量； 移动终端将热点位置及其 访问量定时上报至网络服务提供平台， 以使网络服务提供平台对各个移动终 端上 4艮的信息统计获取导航信息。 进一步地， 上述移动终端分别统计热点位置的访问量包括： 移动终端判 断其位于热点位置的时长是否大于与热点位置的类型相对应的门限；如果是， 移动终端对热点位置的当前访问量加 1。 通过本发明， 釆用定位***对移动终端进行定位， 统计位置数据及其对 应的时间信息获取导航信息， 解决了相关技术中传统的导航信息的获取完全 来源于门户网站上的统计信息， 无法满足实时性需求， 且统计值也未必公正 的问题， 进而可以实时更新热点位置访问量， 并且这种统计方式非常的公正 可信， 不存在虚假成分， 能为移动通信终端用户提供较为准确的导航信息。 附图说明 此处所说明的附图用来提供对本发明的进一步理解， 构成本申请的一部 分， 本发明的示意性实施例及其说明用于解释本发明， 并不构成对本发明的 不当限定。 在附图中： 图 1 是才艮据本发明实施例的第一种统计获取***的结构框图； 图 2 是 居本发明优选实施例的第一种统计获取***中移动终端的结 构框图； 图 3是根据本发明优选实施例的第一种或第二种统计获取***中定位服 务器的结构框图； 图 4是根据本发明优选实施例的第一种统计获取***中位置服务模块的 结构框图； 图 5是 居本发明优选实施例的第一种统计获取***的结构框图； 图 6是 居本发明实施例的第二种统计获取***的结构框图； 图 7是才艮据本发明优选实施例的第二种统计获取***中移动终端的结构 框图； 图 8是 居本发明优选实施例的第二种统计获取***的结构框图； 图 9是根据本发明实施例的第一种导航信息的统计获取方法的流程图； 图 10 是 居本发明优选实施例的第一种导航信息的统计获取方法的流 程图； 图 11是根据本发明优选实施例的 LBS服务器 （位置服务器） 进行统计 的流程图； 图 12 是 居本发明优选实施例的第二种导航信息的统计获取方法的流 程图； 图 13是根据本发明优选实施例的移动终端进行统计的流程图。 具体实施方式 下文中将参考附图并结合实施例来详细说明本发明。 需要说明的是， 在 不冲突的情况下， 本申请中的实施例及实施例中的特征可以相互组合。 图 1 是才艮据本发明实施例的第一种统计获取***的结构框图。如图 1所 示， 居本发明实施例的第一种获取***包括： 移动终端模块 10 和位置月艮 务模块 12。 移动终端模块 10,用于定时将其位置数据及该位置数据对应的时间信息 发送至位置服务模块； 其中， 上述位置数据， 包括但不限于经纬度坐标位置信息。 位置服务模块 12 ,用于统计位置数据及其对应的时间信息以获取导航信 息。 相关技术中， 导航信息 （例如， 热点位置访问量统计数值、 热点位置的 推荐值或排行榜） 的获取完全来源于门户网站上的统计信息， 满足不了实时 性需求， 统计值也未必公正， 并且无法满足消费者对导航信息越来越多样化 的需求。 釆用上述实施例提供的导航信息的获取***， 获取的导航信息公正 可信， 不存在虚假成分， 能够为移动终端用户提供比较准确的导航信息。 其中， 上述移动终端模块可以是移动终端实体， 也可以是设置于移动终 端上的一个模块， 上述位置服务模块可以是 LBS服务器 （位置服务器）， 也 可以是设置于 LBS服务器上的一个模块。 优选地， 上述***还可以包括： 定位月艮务模块 14 , 用于定时接收移动终 端模块的定位请求， 对移动终端模块进行定位处理， 并将运算得到的定位结 果发送至移动终端模块； 则移动终端模块， 还用于处理定位结果得到位置数 据。 通过定位艮务模块 14 的处理， 可以有效对移动终端定位， 准确获取移 动终端的位置信息， 使得获取的导航信息准确可靠。 其中， 上述定位结果， 包括但不限于： 蜂窝小区 Cell-ID; 经纬度坐标数 据等。 优选地， 如图 2所示， 移动终端模块可以包括： GPS模块 301 , 用于定 时向定位艮务模块发送定位请求，并接收定位艮务模块返回的定位结果； GPS 开关模块 302， 用于控制 GPS模块的开启与关闭。 基于 A-GPS定位***对某位置访问量统计的导航方法，除了考虑访问量 统计的自主性， 查询结果的公正便捷性， 还应该考虑到移动通信终端用户的 隐私权问题， 及移动终端续航能力问题。 因此， 增加一个 GPS功能开关是非 常有必要的。 以上所述的 GPS 开关模块， 是指由移动通信终端用户设置的是否开启 GPS功能的开关。 由于频繁地进行定位会影响移动终端的续航能力， 且会引 起移动通信终端用户的隐私外泄， 所以建议 GPS功能开关默认设置为关闭。 当移动通信终端用户有位置服务方面的需求时再自主开启。 优选地， 如图 2所示， 移动终端模块可以包括： 存储模块 308 , 用于存 储位置数据及其对应的时间信息； 清除模块 307 , 用于在位置服务模块发起 接收到位置数据及其对应的时间信息的通知时， 删除位置数据及其对应的时 间信息。 考虑到不断进行定位月艮务及统计对移动终端***资源的占用， 因此一旦 统计结果反馈给 LBS服务器后，则将移动终端上保存的各种定位数据及统计 结果进行清除。 上述清除模块，是指移动终端收到 LBS 艮务器返回的统计结果 1 已收到 的通知后移动终端自动删除各种定位数据及统计结果的方法。 这种方法的好 处是， 能定时释放一部分***资源。 以下结合图 2描述上述优选实施方式。 图 2 是 居本发明优选实施例的第一种统计获取***中移动终端的结 构框图。 如图 2所示， 该移动终端可以进一步包括以下模块： GPS模块 301 , 向定位艮务器发送定位请求， 并接受定位艮务器反馈的 定位结果； TECHNICAL FIELD The present invention relates to the field of communications, and in particular, to a statistical acquisition system and method for navigation information. BACKGROUND OF THE INVENTION At present, people like to learn the recommendation information of various shops from the Internet, especially regarding food and entertainment. For example: eating and drinking network, public comment network, etc., these sites provide a variety of food and drink information, and count the number of visits to each store, a variety of evaluations to give a monthly or annual best store portal. However, the statistics of this kind of information first need consumers to register on the portal, in order to recommend, evaluate, etc., but most people only like to check information, do not like to improve information, and there are many portals. "Vest", so the statistical value or evaluation on it is not necessarily fair and real-time. It can be seen that the traditional navigation information (that is, the statistics related to the visit amount of the hotspot location, for example, the hot spot location traffic statistics, the recommended value of the hotspot location, or the leaderboard) are completely derived from the statistics on the portal. Not only can not meet the real-time demand, the statistical value is not necessarily fair, and can not meet the consumer's increasingly diverse needs for navigation information. Therefore, how to improve the statistics of the hot spot location access to obtain a fair and real-time navigation information for the mobile communication terminal user to query is a problem that needs to be solved at present. SUMMARY OF THE INVENTION The present invention provides a method for statistically acquiring navigation information, which is based on the statistical information on the portal website, which cannot be satisfied by real-time requirements, and the statistical value is not necessarily fair. System to solve at least one of the above problems. According to an aspect of the present invention, a statistical acquisition system for navigation information is provided. The statistical acquisition system of the navigation information according to the present invention includes: a mobile terminal module, configured to periodically send its location data and time information corresponding to the location data to a location service module; and a location service module, configured to collect the location data and The corresponding time information is used to obtain the navigation information; the positioning monthly service module is configured to periodically receive the positioning request of the mobile terminal module, and locate the mobile terminal module. Processing, and transmitting the calculated positioning result to the mobile terminal module; the mobile terminal module is further configured to process the positioning result to obtain location data. Further, the mobile terminal module includes: a GPS module, configured to periodically send a positioning request to the positioning service module, and receive a positioning result returned by the positioning service module; and a GPS switch module, configured to control the opening and closing of the GPS module. Further, the mobile terminal module includes: a storage module, configured to store location data and corresponding time information; and a clearing module, configured to delete the location when the location service module initiates receiving the notification of the location data and the corresponding time information thereof Data and its corresponding time information. Further, the location service module includes: a mapping module, configured to match the collected location data with the geographic information in real time to determine a hotspot location; and a statistics module, configured to separately count the access amount of the hotspot location according to a chronological order; And configured to send the notification information to the mobile terminal module when receiving the location data and the corresponding time information. According to another aspect of the present invention, a statistical acquisition system for navigation information is provided. The statistic acquisition system of the navigation information according to the present invention includes: a mobile terminal module, configured to determine a hotspot location corresponding to the location data and a visitor amount of the hotspot location, and report the obtained hotspot location and the amount of the visitor to the network. a service providing module; a network service providing module, configured to perform statistics on information of a hotspot location and a traffic amount reported by the mobile terminal module, and obtain navigation information; and a positioning service module, configured to periodically receive a positioning request of the mobile terminal module, to the mobile terminal The module performs positioning processing, and sends the calculated positioning result to the mobile terminal module; the mobile terminal module is further configured to process the positioning result to obtain location data. Further, the mobile terminal module includes: a GPS module, configured to periodically send a positioning request to the positioning service module, and receive a positioning result returned by the positioning server; and a GPS switch module, configured to control the opening and closing of the GPS module. Further, the mobile terminal module includes: a location service resource data module, configured to store location data and corresponding time information; and a clearing module, configured to periodically delete location data and corresponding time information. Further, the mobile terminal module includes: a mapping module, configured to match the collected location data with the geographic information in real time to determine a hotspot location; and a statistics module, configured to separately count the access amount of the hotspot location according to a chronological order. According to still another aspect of the present invention, a statistical acquisition method of navigation information is provided. The statistical acquisition method of the navigation information according to the present invention includes: periodically determining location data of the mobile terminal and time information corresponding to the location data; and statistically calculating the location data and the corresponding time information to determine the navigation information. Further, the determining, by the timing, the location data corresponding to the mobile terminal and the time information corresponding to the location data, includes: the mobile terminal periodically sends a positioning request to the positioning server; the positioning server performs positioning processing on the mobile terminal, and the calculated positioning result is obtained. Sending to the mobile terminal; the mobile terminal processes the positioning result to obtain the location data, and reports it to the location server. Further, the foregoing statistical location data and the corresponding time information to determine the navigation information include: the location server matches the collected location data with the geographic information in real time to determine the hotspot location; and the location server separately counts the hotspot location according to the chronological order. The amount of traffic; the location server obtains navigation information based on the hotspot location and its traffic statistics. Further, the location server separately counts the access amount of the hotspot location, including: the location server determines whether the duration of the mobile terminal located in the hotspot location is greater than a threshold corresponding to the type of the hotspot location; if yes, the location server pairs the hotspot The number of visits to the location is increased by 1. Further, the foregoing statistical location data and the corresponding time information to determine the navigation information include: the mobile terminal matches the collected location data with the geographic information in real time to determine the hotspot location; and the mobile terminal separately counts the visitor volume of the hotspot location according to the chronological order. The mobile terminal periodically reports the location of the hotspot and the amount of the access to the network service providing platform, so that the network service providing platform obtains the navigation information for the information on each mobile terminal. Further, the foregoing mobile terminal separately counts the access amount of the hotspot location, including: the mobile terminal determines whether the duration of the hotspot location is greater than a threshold corresponding to the type of the hotspot location; if yes, the current visitor of the mobile terminal to the hotspot location adds 1 . Through the invention, the positioning system is used to locate the mobile terminal, and the position data and the corresponding time information are obtained to obtain the navigation information, which solves the problem that the traditional navigation information in the related technology is completely derived from the statistical information on the portal website, and cannot be satisfied. Real-time demand, and the statistical value is not necessarily fair, and then the hot spot location can be updated in real time, and this statistical method is very fair and credible, there is no false component, and it can provide more accurate navigation information for mobile communication terminal users. . BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are set to illustrate,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, In the drawings: FIG. 1 is a structural block diagram of a first statistical acquisition system according to an embodiment of the present invention; FIG. 2 is a structural block diagram of a mobile terminal in a first statistical acquisition system according to a preferred embodiment of the present invention; Is a structural block diagram of a location server in a first or second type of statistical acquisition system according to a preferred embodiment of the present invention; FIG. 4 is a block diagram showing the structure of a location service module in a first type of statistical acquisition system according to a preferred embodiment of the present invention; 5 is a structural block diagram of a first statistical acquisition system in accordance with a preferred embodiment of the present invention; FIG. 6 is a structural block diagram of a second statistical acquisition system in accordance with an embodiment of the present invention; FIG. 7 is a preferred embodiment of the present invention. 2 is a structural block diagram of a mobile terminal in a second statistical acquisition system; FIG. 8 is a structural block diagram of a second statistical acquisition system in a preferred embodiment of the present invention; FIG. 9 is a first statistical acquisition method of navigation information according to an embodiment of the present invention; Figure 10 is a flow chart of a first method of statistical acquisition of navigation information in accordance with a preferred embodiment of the present invention; Figure 11 is a diagram of L in accordance with a preferred embodiment of the present invention. FIG. 12 is a flowchart of a second method for acquiring statistics of navigation information according to a preferred embodiment of the present invention; FIG. 13 is a flowchart of a mobile terminal performing statistics according to a preferred embodiment of the present invention; flow chart. BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. 1 is a block diagram showing the structure of a first statistical acquisition system according to an embodiment of the present invention. As shown in FIG. 1, the first acquisition system in the embodiment of the present invention includes: a mobile terminal module 10 and a location server module 12. The mobile terminal module 10 is configured to periodically send the location data and the time information corresponding to the location data to the location service module. The location data includes, but is not limited to, latitude and longitude coordinate location information. The location service module 12 is configured to collect location data and corresponding time information to obtain navigation information. In the related art, the navigation information (for example, the hot spot location traffic statistics value, the hot spot location recommendation value or the leaderboard) is completely derived from the statistical information on the portal website, and the real-time demand cannot be met, and the statistical value may not be fair, and Unable to meet the increasing consumer demand for navigation information. Using the navigation information acquisition system provided by the foregoing embodiment, the obtained navigation information is fair and reliable, and there is no false component, which can provide relatively accurate navigation information for the mobile terminal user. The mobile terminal module may be a mobile terminal entity or a module disposed on the mobile terminal. The location service module may be an LBS server (location server) or a module disposed on the LBS server. Preferably, the system may further include: a positioning server module 14 configured to periodically receive a positioning request of the mobile terminal module, perform positioning processing on the mobile terminal module, and send the calculated positioning result to the mobile terminal module; The terminal module is also used to process the positioning result to obtain location data. Through the processing of the positioning service module 14, the mobile terminal can be effectively located, and the location information of the mobile terminal can be accurately obtained, so that the acquired navigation information is accurate and reliable. The foregoing positioning result includes but is not limited to: a cell Cell-ID; latitude and longitude coordinate data, and the like. Preferably, as shown in FIG. 2, the mobile terminal module may include: a GPS module 301, configured to periodically send a positioning request to the positioning service module, and receive a positioning result returned by the positioning service module; and the GPS switch module 302 is configured to control The GPS module is turned on and off. Based on the navigation method of the A-GPS positioning system for the visit statistics of a certain location, in addition to considering the autonomy of the traffic statistics and the fairness and convenience of the query results, the privacy rights of the mobile communication terminal users and the endurance of the mobile terminal should also be considered. problem. Therefore, it is very necessary to add a GPS function switch. The above-mentioned GPS switch module refers to a switch that is set by the user of the mobile communication terminal to turn on the GPS function. Since the frequent positioning will affect the endurance of the mobile terminal and cause the privacy of the mobile communication terminal user to leak, it is recommended that the GPS function switch be set to off by default. When the mobile communication terminal user has the demand for location service, it is automatically opened. Preferably, as shown in FIG. 2, the mobile terminal module may include: a storage module 308, configured to store location data and corresponding time information thereof; and a clearing module 307, configured to initiate, at the location service module, location data and corresponding When the time information is notified, the location data and its corresponding time information are deleted. Considering the continuous positioning of the monthly service and statistics on the occupancy of the mobile terminal system resources, once the statistical results are fed back to the LBS server, the various positioning data and statistical results saved on the mobile terminal are cleared. The above clearing module refers to a method for the mobile terminal to automatically delete various positioning data and statistical results after the mobile terminal receives the notification that the statistical result returned by the LBS server 1 has been received. The advantage of this approach is that it can release a portion of the system resources at regular intervals. The above preferred embodiment will be described below in conjunction with FIG. 2 is a structural block diagram of a mobile terminal in a first statistical acquisition system in accordance with a preferred embodiment of the present invention. As shown in FIG. 2, the mobile terminal may further include the following module: a GPS module 301, sending a positioning request to the positioning server, and accepting a positioning result fed back by the positioning server;

GPS开关模块 302，由移动通信终端用户自主操作的开关，用于控制 GPS 功能的开启与否； 运算模块 303 ,是一个可以釆取现有定位技术把蜂窝小区 Cell-ID进一步 精确到经纬度坐标的模块。 特别地， 经纬度坐标不一定是 Cell-ID对应的蜂 窝小区的基站位置， 可以更进一步精确到移动终端所在的位置； 统计模块 304 (该模块中包括上述存储模块 308 ),用于统计定位结果（经 纬度坐标数据） 及其对应时间， 并将统计结果以表格的形式保存， 具体可以 参见表 1所示的示例。 表 1 The GPS switch module 302 is a switch operated by a user of the mobile communication terminal for controlling whether the GPS function is turned on or not; The operation module 303 is a module that can take the existing positioning technology to further optimize the cell Cell-ID to the latitude and longitude coordinates. In particular, the latitude and longitude coordinates are not necessarily the base station location of the cell corresponding to the Cell-ID, and may be further accurate to the location where the mobile terminal is located; the statistics module 304 (including the foregoing storage module 308) for statistical positioning results ( The latitude and longitude coordinate data) and its corresponding time, and save the statistical results in the form of a table, as shown in the example shown in Table 1. Table 1

发送模块 305, 向 LBS服务器 200发送以表 1形式保存的定位结果及其 对应的时间； 查询模块 306, 通过 GPRS、 3G等方式， 连接网络查询移动通信终端用 户感兴趣的热点位置信息， 包括但不限于： 热点位置访问量统计值、 热点类 型位置的推荐值 /排行榜等； 清除模块 307,接收到 LBS服务器 200返回的定位结果已收到的通知后， 自动清除移动终端上保存的各种定位数据及统计结果。 其中， 上述定位月艮务模块可以是定位月艮务器实体。 优选地， 如图 3所示， 上述定位月艮务模块可以进一步包括： A-GPS定位 月艮务器 101 , 接收移动通信终端用户的定位请求， 并返回相应的定位结果； 位置计算数据库 102, 釆用 A-GPS通用定位技术， 运算得出移动终端当前位 置信息， 把运算结果反馈给 A-GPS定位服务器 101。 优选地， 位置服务模块 14可以进一步包括： 映射模块 203 , 用于实时将 收集到的位置数据与地理信息进行匹配， 确定热点位置； 统计模块 204, 用 于按照时间顺序分别统计热点位置的访问量。 通知模块 207, 用于在接收到 所述位置数据及其对应的时间信息时， 向所述移动终端模块发送通知信息。 其中，上述映射是指将移动终端反馈的定位数据与 LBS资源数据库中的 电子地图， 和 /或主题地图进行匹配。 其中， 上述地理信息， 可以是由 LBS服务提供商提供的存储在 LBS资 源数据库中专门用于导航的电子地图， 显示用户感兴趣的各种位置信息， 特 别地，这种电子地图还可以按照不同类型的位置信息划分为多种 "主题地图 "。 当然， 电子地图会定时进行更新。 以下结合图 4描述上述优选实施方式。 图 4是根据本发明优选实施例的第一种统计获取***中位置服务模块的 结构框图。 如图 4所示， 该位置服务模块可以进一步包括以下模块： 接收模块 201 , 接收移动终端反馈的与位置信息 （即上述位置数据） 相 关的统计结果； The sending module 305 sends the positioning result saved in the form of Table 1 and the corresponding time to the LBS server 200. The query module 306 connects the network to query the hot spot location information of the user of the mobile communication terminal by means of GPRS, 3G, etc., including but The method is not limited to: a hot spot location visitor statistic value, a hotspot type location recommendation value/a leaderboard, and the like; the clearing module 307, after receiving the notification that the location result returned by the LBS server 200 has been received, automatically clearing various types saved on the mobile terminal Positioning data and statistical results. The positioning monthly service module may be a positioning server entity. Preferably, as shown in FIG. 3, the positioning monthly service module may further include: an A-GPS positioning server 101, receiving a positioning request of the mobile communication terminal user, and returning a corresponding positioning result; the location calculation database 102, Using the A-GPS universal positioning technology, the current position information of the mobile terminal is calculated, and the operation result is fed back to the A-GPS positioning server 101. Preferably, the location service module 14 may further include: a mapping module 203, configured to match the collected location data with the geographic information in real time to determine a hotspot location; and the statistics module 204, configured to separately count the traffic of the hotspot location according to the chronological order . The notification module 207 is configured to send the notification information to the mobile terminal module when receiving the location data and the corresponding time information. Wherein, the foregoing mapping refers to positioning data fed back by the mobile terminal and the LBS resource database. Electronic maps, and/or theme maps are matched. The geographic information may be an electronic map provided by the LBS service provider and stored in the LBS resource database for navigation, displaying various location information of interest to the user. In particular, the electronic map may also be different. The location information of the type is divided into a variety of "topic maps". Of course, the electronic map will be updated regularly. The above preferred embodiment will be described below in conjunction with FIG. 4 is a structural block diagram of a location service module in a first statistical acquisition system in accordance with a preferred embodiment of the present invention. As shown in FIG. 4, the location service module may further include the following modules: The receiving module 201 receives a statistical result related to location information (that is, the location data) that is fed back by the mobile terminal;

LBS资源数据库 202 , 储存跟位置信息、 导航信息相关的各类资源数据， 例如： 电子地图， 和 /或主题地图； 统计分析数据； 发布到网络中的导航信息； 映射模块 203 , 将移动终端反馈的定位数据与 LBS资源数据库 202中的 电子地图， 和 /或主题地图进行匹配 （也可称为映射）。 统计模块 204 , 才艮据不同类型位置信息对应的不同触发条件 （即热点位 置的类型相对应的门限；)， 按照时间顺序分别统计满足触发条件的位置信息； 其中， 不同类型的位置信息分别对应不同的触发条件。 例如： 餐饮消费 类型位置的触发条件可以设置为 30或 60分钟； 小型购物消费类型位置的触 发条件可以设置为 10或 15分钟， 而大型购物消费类型位置的触发条件则可 以设置为 1或 2或 3小时等。 当然， 上述各类条件只是举例， 各种触发条件 可以 居经 -险值设置。 在优选实施过程中， 统计模块 204可以进一步包括： 位置信息确认子模 块 2040、 判断子模块 2042及统计子模块 2044 , 其中， 位置信息确认子模块 2040， 用于将匹配到电子地图， 和 /或主题地图上 的经纬度坐标， 与地图上的热点位置信息进行配对确认， 落入热点位置范围 的经纬度坐标数据， 则确认为该热点位置。 将经纬度坐标、 热点位置及其对 应时间以表格的形式保存， 具体可以参见表 2所示的示例。 表 2 The LBS resource database 202 stores various resource data related to the location information and the navigation information, such as: an electronic map, and/or a topic map; statistical analysis data; navigation information posted to the network; and a mapping module 203, which feeds back the mobile terminal The positioning data is matched (also referred to as mapping) with an electronic map, and/or a topic map in the LBS resource database 202. The statistic module 204, according to the different triggering conditions corresponding to the different types of location information (ie, the threshold corresponding to the type of the hotspot location;), respectively, the location information that satisfies the triggering condition is counted according to the chronological order; wherein, the different types of location information respectively correspond to Different trigger conditions. For example: the trigger condition of the location of the food consumption type can be set to 30 or 60 minutes; the trigger condition of the location of the small shopping consumption type can be set to 10 or 15 minutes, and the trigger condition of the location of the large shopping consumption type can be set to 1 or 2 or 3 hours and so on. Of course, the above various conditions are only examples, and various trigger conditions can be set by the risk-value. In a preferred implementation, the statistics module 204 may further include: a location information confirmation sub-module 2040, a determination sub-module 2042, and a statistics sub-module 2044, where the location information confirmation sub-module 2040 is configured to match the electronic map, and/or The latitude and longitude coordinates on the theme map are paired with the hot spot position information on the map, and the latitude and longitude coordinate data falling within the hot spot position range is confirmed as the hot spot position. The latitude and longitude coordinates, the hotspot position, and the corresponding time are saved in the form of a table. For details, see the example shown in Table 2. Table 2

判断子模块 2042， 按照时间顺序， 判断移动终端位于某个热点位置的起 始到终止时间范围是否达到触发条件； 统计子模块 2044， 用于将满足触发条件的热点位置信息加 1。 在优选实施过程中， 判断子模块 2042的判断方式如下： 才艮据第一个时间点对应的热点位置的位置类型， 判断下一个时间点对应 的热点位置是否是同一个热点位置： 若是同一个热点位置， 则按时间顺序依 次判断其后的热点位置， 直到不是同一个热点位置为止。 此时判断移动终端 位于这个热点位置的起始到终止时间范围是否达到相应的触发条件， 达到触 发条件则统计子模块 2044将该热点位置的访问量加 1 ; 若不是同一个热点位 置， 则才艮据当前热点位置的位置类型， 重新开始一轮判断。 在优选实施过程中， 上述判断方式还可以包括： 按照时间顺序， 判断子 模块 2042 首先判断本时间周期的第一个时间点对应的热点位置与上一时间 周期的最后一个时间点对应的热点位置是否一致， 若一致， 则这个热点位置 的起始时间爹改为上一时间周期内统计的起始时间； 若不一致， 则重新开始 一轮判断。 分析模块 205 , 对统计得出的热点位置访问量进行分析， 得出一个热点 类型位置的推荐值 /排行榜； 发布模块 206 , 将统计分析得到的热点位置访问量及热点类型位置的推 荐值 /排行榜等导航信息发布到网络中， 以供移动通信终端用户或其他用户查 询。 通知模块 207 , 在接收到所述位置数据及其对应的时间信息时， 向移动 终端模块发送通知信息。 以下结合图 5描述上述优选实施方式。 图 5是 居本发明优选实施例的第一种统计获取***的结构框图。 如图 5所示，才艮据本发明优选实施例的第一种统计获取***包括：定位月艮务器 100、 移动终端 300、 LBS服务器 200。 其中， 移动终端 300的 GPS模块与定位服 务器 100的 A-GPS定位服务器 101进行信息交互，移动终端 300的查询模块 306可以与 LBS服务器 200的发布模块进行信息交互， 移动终端 300的发送 模块 305可以与 LBS服务器 200的接收模块 201进行信息交互。上述各模块 相互结合的工作方式具体参见图 1至图 4的描述， 此处不再赞述。 图 6是 居本发明实施例的第二种统计获取***的结构框图。 如图 6所 示， 第二种统计获取***包括： 移动终端模块 60和网络月艮务提供模块 62。 移动终端模块 60,用于确定其位置数据对应的热点位置及热点位置的访 问量， 并将获取的热点位置及其访问量定时上报至网络服务提供模块； 其中， 上述位置数据， 包括但不限于经纬度坐标位置信息。 网络服务提供模块 62 , 用于对移动终端模块上报的热点位置及其访问量 的信息进行统计， 获取所述导航信息。 釆用上述实施例提供的导航信息的获取***，获取的导航信息公正可信， 不存在虚假成分， 能够为移动终端用户提供比较准确的导航信息。 其中， 上述移动终端模块可以是移动终端实体， 也可以是设置于移动终 端上的一个模块， 上述网络服务提供模块可以是网络服务提供商 （例如， 大 众点评网；)。 优选地， ***还可以包括： 定位服务模块 64， 用于定时接收移动终端模 块的定位请求， 对移动终端模块进行定位处理， 并将运算得到的定位结果发 送至移动终端模块； 移动终端模块 60, 还用于处理定位结果得到位置数据。 优选地， 如图 3所示， 上述定位艮务模块 64的结构与定位艮务模块 14 一致， 也可以进一步包括： A-GPS定位月艮务器 101 , 接收移动通信终端用户 的定位请求， 并返回相应的定位结果； 位置计算数据库 102 , 釆用 A-GPS通 用定位技术， 运算得出移动终端当前位置信息， 4巴运算结果反馈给 A-GPS定 位月艮务器 101。 其中， 上述定位结果， 包括但不限于： 蜂窝小区 Cell-ID; 经纬度坐标数 据等。 优选地， 如图 2所示， 移动终端模块 60可以包括： GPS模块 401 , 用于 定时向定位艮务模块发送定位请求，并接收定位艮务器返回的定位结果； GPS 开关模块 402 , 用于控制 GPS模块的开启与关闭。 优选地， 如图 2所示， 移动终端模块可以包括： 位置月艮务 （LBS ) 资源 数据模块 405, 用于存储位置数据及其对应的时间信息； 清除模块 411 , 用于 定时删除位置数据及其对应的时间信息。 优选地， 如图 2所示， 移动终端模块可以包括： 映射模块 406, 用于实 时将收集到的位置数据与地理信息进行匹配， 以确定热点位置； 统计模块 407, 用于按照时间顺序分别统计热点位置的访问量。 其中， 上述映射是指将移动终端反馈的定位数据与 LBS 资源数据模块The determining sub-module 2042 determines, according to the chronological order, whether the start-to-end time range of the mobile terminal is located at a certain hotspot location reaches a trigger condition; and the statistics sub-module 2044 is configured to add 1 to the hotspot location information that satisfies the trigger condition. In the preferred implementation process, the determining sub-module 2042 determines the manner as follows: According to the location type of the hotspot location corresponding to the first time point, it is determined whether the hotspot location corresponding to the next time point is the same hotspot location: At the hot spot position, the subsequent hot spot positions are sequentially determined in chronological order until they are not the same hot spot position. At this time, it is judged whether the start time to the end time range of the mobile terminal is at the corresponding trigger condition. When the trigger condition is reached, the statistics sub-module 2044 adds 1 to the hot spot position; if not the same hot spot position, According to the location type of the current hot spot, start a round of judgment. In the preferred implementation, the determining manner may further include: determining, by the chronological order, the sub-module 2042 to first determine the hotspot location corresponding to the hotspot location corresponding to the first time point of the current time period and the last time point of the previous time period. Whether they are consistent, if they are consistent, the starting time of this hot spot is changed to the starting time of the statistics in the previous time period; if they are inconsistent, a round of judgment is restarted. The analysis module 205 analyzes the statistically obtained hot spot location access amount, and obtains a recommended value/ranking list of the hotspot type location; the publishing module 206, the statistically analyzed hot spot location access amount and the recommended value of the hotspot type location/ Navigation information such as leaderboards are posted to the network for query by mobile communication terminal users or other users. The notification module 207, when receiving the location data and its corresponding time information, send the notification information to the mobile terminal module. The above preferred embodiment will be described below in conjunction with FIG. Figure 5 is a block diagram showing the structure of a first statistical acquisition system in accordance with a preferred embodiment of the present invention. As shown in FIG. 5, the first statistical acquisition system according to a preferred embodiment of the present invention includes: a location server 100, a mobile terminal 300, and an LBS server 200. The GPS module of the mobile terminal 300 performs information interaction with the A-GPS positioning server 101 of the positioning server 100. The query module 306 of the mobile terminal 300 can perform information interaction with the publishing module of the LBS server 200, and the sending module 305 of the mobile terminal 300 can The information is exchanged with the receiving module 201 of the LBS server 200. For details of how the above modules are combined with each other, refer to the description of FIG. 1 to FIG. 4, which is not mentioned here. FIG. 6 is a structural block diagram of a second statistical acquisition system according to an embodiment of the present invention. As shown in FIG. 6, the second statistical acquisition system includes: a mobile terminal module 60 and a network service providing module 62. The mobile terminal module 60 is configured to determine the location of the hotspot location and the hotspot location corresponding to the location data, and report the obtained hotspot location and the amount of the access to the network service providing module. The location data includes but is not limited to Longitude and latitude coordinate position information. The network service providing module 62 is configured to perform statistics on the hotspot location and the amount of access reported by the mobile terminal module, and obtain the navigation information. Using the navigation information acquisition system provided by the foregoing embodiment, the obtained navigation information is fair and reliable, and there is no false component, which can provide relatively accurate navigation information for the mobile terminal user. The mobile terminal module may be a mobile terminal entity or a module disposed on the mobile terminal, and the network service providing module may be a network service provider (for example, a public comment network; Preferably, the system may further include: a positioning service module 64, configured to periodically receive a positioning request of the mobile terminal module, perform positioning processing on the mobile terminal module, and send the calculated positioning result to the mobile terminal module; the mobile terminal module 60, It is also used to process the positioning results to obtain location data. Preferably, as shown in FIG. 3, the configuration of the positioning service module 64 is consistent with the positioning service module 14, and may further include: an A-GPS positioning server 101, receiving a positioning request of the user of the mobile communication terminal, and Returning the corresponding positioning result; The position calculation database 102 uses the A-GPS universal positioning technology to calculate the current position information of the mobile terminal, and the 4 bar operation result is fed back to the A-GPS positioning server 101. The foregoing positioning result includes but is not limited to: a cell Cell-ID; latitude and longitude coordinate data, and the like. Preferably, as shown in FIG. 2, the mobile terminal module 60 may include: a GPS module 401, configured to periodically send a positioning request to the positioning service module, and receive a positioning result returned by the positioning server; and a GPS switch module 402, configured to: Controls the opening and closing of the GPS module. Preferably, as shown in FIG. 2, the mobile terminal module may include: a location monthly service (LBS) resource data module 405, configured to store location data and corresponding time information, and a clearing module 411, configured to periodically delete the location data and Its corresponding time information. Preferably, as shown in FIG. 2, the mobile terminal module may include: a mapping module 406, configured to match the collected location data with the geographic information in real time to determine a hotspot location; and a statistics module 407, configured to perform statistics according to chronological order The number of visits to the hotspot location. The foregoing mapping refers to the positioning data and the LBS resource data module fed back by the mobile terminal.

405中的电子地图， 和 /或主题地图进行匹配。 其中， 上述地理信息， 可以是移动终端中 LBS资源数据模块 405存储的 专门用于导航的电子地图， 显示用户感兴趣的各种位置信息， 特别地， 这种 电子地图还可以按照不同类型的位置信息划分为多种 "主题地图"。 当然， 电 子地图会定时进行更新。 以下结合图 7描述上述优选实施方式。 图 7 是 居本发明优选实施例的第二种获取***中移动终端的结构框 图。 如图 7所示， 第二种获取***中移动终端可以包括以下模块： The electronic map in 405, and / or the theme map to match. The foregoing geographic information may be an electronic map dedicated to navigation stored by the LBS resource data module 405 in the mobile terminal, and display various location information of interest to the user. In particular, the electronic map may also be in different types of locations. Information is divided into a variety of "topic maps." Of course, the electronic map will be updated regularly. The above preferred embodiment will be described below with reference to FIG. Figure 7 is a block diagram showing the structure of a mobile terminal in a second acquisition system in accordance with a preferred embodiment of the present invention. As shown in FIG. 7, the mobile terminal in the second acquisition system may include the following modules:

GPS模块 401 , 向定位艮务器发送定位请求， 并接受反馈的定位结果； GPS模块开关 402 ,由移动通信终端用户自主操作的开关，用于控制 GPS 功能的开启与否； 运算模块 403 ,是指一个可以釆取现有定位技术把蜂窝小区 Cell-ID进一 步精确到经纬度坐标的模块。 特别地， 经纬度坐标不一定是 Cell-ID 对应的 蜂窝小区的基站位置， 可以更进一步精确到移动终端所在的位置； 第一统计模块 404 (该模块包括上述存储模块 412 ), 用于统计定位结果The GPS module 401 sends a positioning request to the positioning server and accepts the feedback positioning result; the GPS module switch 402 is used by the user of the mobile communication terminal to control whether the GPS function is turned on or not; the operation module 403 is Refers to a module that can take the existing positioning technology to further optimize the cell Cell-ID to the latitude and longitude coordinates. In particular, the latitude and longitude coordinates are not necessarily the base station location of the cell corresponding to the Cell-ID, and may be further accurate to the location where the mobile terminal is located; the first statistic module 404 (the module includes the storage module 412 described above) for statistical positioning results

(经纬度坐标数据） 及其对应时间， 并将统计结果以表格形式保存， 具体可 以参见表 1所示的示例。 LBS资源数据模块 405 , 储存跟位置信息、 导航信息相关的各类资源数 据， 例如： 电子地图， 和 /或主题地图； 统计分析数据； 发布到网络中的导航 信息等， 上述的各类资源数据均保存在 T-Flash卡中； 映射模块 406 , 将定位数据与 LBS资源数据模块 405中的电子地图， 和 /或主题地图进行匹配。 第二统计模块 407, 定时地才艮据不同类型位置信息对应的不同触发条件 (即热点位置的类型相对应的门限；)，按照时间顺序分别统计满足触发条件的 位置信息； 优选地， 第二统计模块 407可以进一步包括位置信息确认子模块 4070、 判断子模块 4072及统计子模块 4074。 位置信息确认子模块 4070 , 用于将匹配到电子地图， 和 /或主题地图上 的经纬度坐标， 与地图上的热点位置信息进行配对确认， 落入热点位置范围 的经纬度坐标数据， 则确认为该热点位置。 将经纬度坐标、 热点位置及其对 应时间以表格形式保存， 具体可以参见表 2所示的示例。 判断子模块 4072 , 按照时间顺序， 判断移动终端位于某个热点位置的起 始到终止时间范围是否达到触发条件； 统计子模块 4074 , 用于将满足触发条件的热点位置信息加 1。 在优选实施过程中， 判断子模块 4072 的判断方式如下： 居第一个时 间点对应的热点位置的位置类型， 判断下一个时间点对应的热点位置是否是 同一个热点位置： 若是同一个热点位置， 则按时间顺序依次判断其后的热点 位置， 直到不是同一个热点位置为止。 此时判断移动终端位于这个热点位置 的起始到终止时间范围是否达到相应的触发条件， 达到触发条件则统计子模 块 4074将该热点位置的访问量加 1； 若不是同一个热点位置， 则根据当前热 点位置的位置类型， 重新开始一轮判断。 在优选实施过程中， 上述判断方式还可以包括： 按照时间顺序， 判断子 模块 4072 首先判断本时间周期的第一个时间点对应的热点位置与上一时间 周期的最后一个时间点对应的热点位置是否一致， 若一致， 则这个热点位置 的起始时间爹改为上一时间周期内统计的起始时间； 若不一致， 则重新开始 一轮判断。 分析模块 408 , 对统计得出的热点位置访问量进行分析， 得出一个热点 类型位置的推荐值 /排行榜； 发布模块 409 , 将统计分析得到的热点位置访问量及热点类型位置的推 荐值 /排行榜等导航信息发布到网络中， 以供移动通信终端用户查询。 查询模块 410 , 通过 GPRS、 3G等方式， 连接网络查询移动通信终端用 户感兴趣的热点位置信息， 包括但不限于： 热点位置访问量统计值、 热点类 型位置的推荐值 /排行榜等； 清除模块 411 , 移动终端定时地自动清除 LBS资源数据模块 405中的各 种定位数据及统计结果。 以下结合图 8描述上述优选实施方式。 图 8是 居本发明优选实施例的第二种获取***的结构框图。 如图 8所 示， -据本发明优选实施例的第二种获取***包括： 定位服务器 100、 移动 终端 300、 网络服务提供平台 200。 其中， 移动终端 300的 GPS模块 401与 定位服务器 100的 A-GPS定位服务器 101进行信息交互，移动终端 300的查 询模块 410、 发布模块 409分别与网络服务提供平台 200进行信息交互。 上 述各模块相互结合的工作方式具体参见图 5至图 7的描述， 此处不再赘述。 图 9是根据本发明实施例的导航信息的统计获取方法的流程图。 如图 9 所示， 该导航信息的获取方法可以包括以下处理： 步骤 S902: 定时确定移动终端的位置数据及位置数据对应的时间信息； 步骤 S904： 统计位置数据及其对应的时间信息以确定导航信息。 釆用上述实施例提供的导航信息的获取方法， 由于是定时确定移动终端 的位置数据， 因而获取的导航信息公正可信， 不存在虚假成分， 能够为移动 终端用户提供比较准确的导航信息。 针对上述导航信息的获取方法， 主要有以下两种优选实施方式。 首先描述第一种实施方式。 优选地， 上述步骤 S902可以进一步包括以下处理: ( 1 ) 移动终端定时向定位服务器发送定位请求； (latitude and longitude coordinate data) and its corresponding time, and save the statistical results in tabular form. For details, see the example shown in Table 1. The LBS resource data module 405 stores various resource data related to the location information and the navigation information, such as: an electronic map, and/or a topic map; statistical analysis data; navigation information published to the network, and the foregoing various resource data. All are saved in the T-Flash card; the mapping module 406 matches the positioning data with the electronic map in the LBS resource data module 405, and/or the theme map. The second statistic module 407 periodically counts the different trigger conditions corresponding to the different types of location information (ie, the threshold corresponding to the type of the hotspot location;), and separately calculates the location information that satisfies the trigger condition in time order; preferably, the second The statistics module 407 can further include a location information confirmation sub-module 4070, a determination sub-module 4072, and a statistics sub-module 4074. The location information confirmation sub-module 4070 is configured to match the latitude and longitude coordinates matched to the electronic map, and/or the theme map, with the hot spot location information on the map, and determine the latitude and longitude coordinate data falling within the hotspot location range, and confirm the Hot spot location. The latitude and longitude coordinates, the hot spot position and the corresponding time are saved in a table form. For details, see the example shown in Table 2. The determining sub-module 4072 determines, according to the chronological order, whether the start-to-end time range of the mobile terminal is at a certain hotspot location reaches a trigger condition; the statistics sub-module 4074 is configured to add 1 to the hotspot location information that satisfies the trigger condition. In the preferred implementation process, the judging sub-module 4072 determines the manner of: the location type of the hotspot location corresponding to the first time point, and determines whether the hotspot location corresponding to the next time point is the same hotspot location: if it is the same hotspot location , then determine the hot spot position in chronological order until it is not the same hot spot position. At this time, it is determined whether the start time to the end time range of the mobile terminal is at the corresponding trigger condition. When the trigger condition is reached, the statistics sub-module 4074 adds 1 to the hot spot position; if not the same hot spot position, according to The type of location of the current hotspot location, restarting a round of judgment. In a preferred implementation, the determining manner may further include: determining, according to the chronological order, the sub-module 4072 to first determine the hotspot location corresponding to the hotspot location corresponding to the first time point of the current time period and the last time point of the previous time period. Whether they are consistent, if they are consistent, the starting time of this hot spot is changed to the starting time of the statistics in the previous time period; if they are inconsistent, a round of judgment is restarted. The analysis module 408 analyzes the statistically obtained hot spot location access amount, and obtains a recommended value/ranking list of the hotspot type location; the publishing module 409, the statistically analyzed hot spot location access amount and the recommended value of the hotspot type location/ Navigation information such as leaderboards are posted to the network for query by mobile communication terminal users. The query module 410, by means of GPRS, 3G, etc., connects to the network to query the hotspot location information of the user of the mobile communication terminal, including but not limited to: the hot spot location access amount statistics value, the hotspot type location recommendation value/the leaderboard, etc.; 411. The mobile terminal periodically clears various positioning data and statistical results in the LBS resource data module 405. The above preferred embodiment will be described below with reference to FIG. Figure 8 is a block diagram showing the structure of a second acquisition system in accordance with a preferred embodiment of the present invention. As shown in FIG. 8, a second acquisition system according to a preferred embodiment of the present invention includes: a location server 100, a mobile terminal 300, and a network service providing platform 200. The GPS module 401 of the mobile terminal 300 performs information interaction with the A-GPS positioning server 101 of the positioning server 100, and the query module 410 and the publishing module 409 of the mobile terminal 300 respectively exchange information with the network service providing platform 200. For details, refer to the description of FIG. 5 to FIG. 7 , and the details are not described herein again. FIG. 9 is a flowchart of a method for statistically acquiring navigation information according to an embodiment of the present invention. As shown in FIG. 9, the method for acquiring the navigation information may include the following processing: Step S902: Timing determining location data of the mobile terminal and time information corresponding to the location data; Step S904: Statistics location data and corresponding time information to determine navigation information. The method for acquiring the navigation information provided by the foregoing embodiment, because the location data of the mobile terminal is determined periodically, the obtained navigation information is fair and reliable, and there is no false component, so that the mobile terminal user can provide relatively accurate navigation information. For the above method for acquiring navigation information, there are mainly two preferred embodiments. First, the first embodiment will be described. Preferably, the above step S902 may further include the following processing: (1) The mobile terminal periodically sends a positioning request to the positioning server;

( 2 ) 定位艮务器对移动终端进行定位处理， 并将运算得到的定位结果 发送至移动终端； (2) the location server performs positioning processing on the mobile terminal, and sends the calculated positioning result to the mobile terminal;

( 3 ) 移动终端处理定位结果得到位置数据， 并上 至位置艮务器。 优选地， 上述步骤 S904可以进一步包括以下处理： (3) The mobile terminal processes the positioning result to obtain the location data and uploads it to the location server. Preferably, the above step S904 may further include the following processing:

( 1 ) 位置 艮务器实时将收集到的位置数据与地理信息进行匹配， 确定 热点位置； (1) The location server matches the collected location data with the geographic information in real time to determine the location of the hotspot;

( 2 ) 位置服务器按照时间顺序分别统计热点位置的访问量； 在优选实施过程中， 位置月艮务器分别统计热点位置的访问量包括： 位置 月艮务器判断移动终端位于热点位置的时长是否大于与热点位置的类型相对应 的门限； 如果是， 位置月艮务器对热点位置的访问量加 1。 (2) The location server separately counts the access amount of the hotspot location according to the chronological order; in the preferred implementation process, the location server separately counts the visitor amount of the hotspot location includes: The location server determines whether the mobile terminal is located at the hotspot location Greater than the threshold corresponding to the type of hotspot location; if so, the location server adds 1 to the hotspot location.

( 3 ) 位置服务器根据热点位置及其访问量统计获取导航信息。 以下结合实例详细描述该实施方式。 在具体实施过程中， 移动终端的 GPS模块处于 艮务状态时， 按照一定的 时间间隔持续不断地向定位服务器发送定位请求， 定位服务器将运算得出的 定位结果反馈给移动终端。 移动终端对返回的定位结果进行处理， 并对处理 后得出的经纬度坐标等数据进行统计。 移动终端将统计结果 1映射到保存在 移动终端 LBS资源数据模块中的电子地图上，定时地按一定条件对映射结果 进行统计， 并将最终的统计结果 2发布到网络中， 以便于其他移动通信终端 用户进行查询。 上述移动终端， 具备 GPS模块， 能通过定位艮务器对移动终端当前位置 进行定位； 且支持 T-Flash 卡及具备强大的处理能力， 能在移动终端上对定 位结果进行映射、 统计、 分析及发布、 查询。 上述定位艮务器的工作原理， 是指目前在定位及导航等位置 艮务技术领 域中可能使用的各种定位技术， 来获取移动终端的当前位置信息。 上述时间间隔， 可以由用户自由设置， 包括但不限于： 5分钟、 10分钟、 15分钟等， 但不能小于所有类型位置信息的最小触发时间。 上述定位结果， 包括但不限于： 蜂窝小区 Cell-ID; 经纬度坐标数据等。 上述统计结果 1 , 是指一组包含定位结果 （经纬度坐标） 及其对应时间 的数据， 统计结果可以以表格形式保存， 具体可以参见表 1的示例。 上述映射是指移动终端将定位数据与 LBS资源数据模块中的电子地图， 和 /或主题地图进行匹配。 上述 LBS资源数据模块， 是指储存跟位置信息、 导航信息相关的各类资 源数据， 例如： 电子地图， 和 /或主题地图； 统计分析数据； 发布到网络中的 导航信息等， 上述的各类资源数据均保存在 T-Flash卡中。 上述电子地图，是指移动终端从 LBS服务提供商或网络定时更新的专门 用于导航的电子地图， 显示用户感兴趣的各种位置信息， 特别地， 这种电子 地图还可以按照不同类型的位置信息划分为多种 "主题地图，，。 以上的定时， 其定时阈值可以由用户自由设置， 例如： 1小时、 2小时、 3小时、 6小时等。 以上的一定条件，按照不同类型的位置信息分别对应不同的触发条件（即 上述与热点位置的类型相对应的门限）。 上述统计结果 2,是指移动终端对满足触发条件的位置信息进行统计（即 满足条件的位置访问量加 1 ), 并对其进行分析， 得出一个热点类型位置的推 荐值或排行榜， 发布到网络中引导移动通信终端用户获得更为便捷、 公正的 产品和月艮务。 其中， 上述分析方法， 还可以将移动通信终端用户的年龄、 性 另 ij、 收入等因素纳入考虑。 图 10 是 居本发明优选实施例的第一种导航信息的统计获取方法的流 程图。 如图 10所示， 第一种导航信息的获取方法主要包括以下处理： 步骤 S 1002: GPS开关模块 302控制 GPS模块 301开启， GPS模块 301 向定位艮务器 100发送定位请求， 并接受定位艮务器 100反馈回来的定位结 果； 步 4聚 S 1004: 运算模块 303处理反馈回来的定位结果， 统一以经纬度坐 标呈现； 步骤 S 1006: 统计模块 304将统计的定位结果 （经纬度坐标数据） 及其 对应时间以表 1的形式保存， 并通过发送模块 305发送给 LBS服务器 200; 步骤 S 1008: 接收到 LBS服务器 200返回的定位结果已收到的通知后， 清除模块 307 自动清除移动终端 300上保存的各种定位数据及统计结果； 步骤 S 1010: LBS服务器 200的映射模块 203将接收模块 201接收到的 移动终端 300反馈的与位置信息相关的统计结果与 LBS资源数据库 202中的 电子地图， 和 /或主题地图进行匹配； 步骤 S 1012:统计模块 204根据不同类型位置信息对应的不同触发条件， 按照时间顺序分别统计满足触发条件的位置信息； 以下结合图 11描述上述优选实施方式， 上述步 4聚 S 1012主要包括以下 处理 （步骤 S 1102-步骤 S 1116 ): 步骤 S 1102: 移动终端 300定时向 LBS服务器 200发送该时间周期内的 定位结果及其对应时间； 步骤 S 1104:位置信息确认子模块 2040按时间顺序确认移动终端在该时 间周期内落入的热点位置， 并把确认后的数据以表 2的形式保存。 步骤 S 1106： 判断子模块 2042根据第一个时间点对应的热点位置与上一 时间周期的最后一个时间点对应的热点位置是否一致； 步骤 S 1108: 如果是， 修改该热点位置起始时间为上一时间周期内统计 的起始时间； 如果否， 将本次时间周期的第一个时间点对应的热点位置作为 一轮判断的起点， 开始一轮新的判断； 步骤 S 1110: 判断第一个时间点对应的热点位置与下一个时间点对应的 热点位置是否是同一个热点位置； 如果是， 执行步骤 S 1112, 否则， 返回执 行步骤 S 1108, 居当前热点位置的位置类型， 重新开始一轮判断。 步骤 S 1112: 若是同一个热点位置， 则按时间顺序依次判断其后的热点 位置， 直到不是同一个热点位置为止。 步骤 S 1114: 判断移动终端 300位于这个热点位置的起始到终止时间范 围是否达到相应的触发条件； 步骤 S 1116: 达到触发条件则统计子模块 2044将该热点位置的访问量加(3) The location server obtains navigation information according to the hotspot location and its traffic statistics. This embodiment will be described in detail below with reference to examples. In a specific implementation process, when the GPS module of the mobile terminal is in the service state, the positioning request is continuously sent to the positioning server according to a certain time interval, and the positioning server feeds back the calculated positioning result to the mobile terminal. The mobile terminal processes the returned positioning result, and performs statistics on the latitude and longitude coordinates and the like obtained after the processing. The mobile terminal maps the statistical result 1 to the electronic map stored in the LBS resource data module of the mobile terminal, periodically statistics the mapping result according to certain conditions, and publishes the final statistical result 2 to the network, so as to facilitate other mobile communications. The end user makes a query. The mobile terminal has a GPS module, can locate the current location of the mobile terminal through the positioning server; and supports the T-Flash card and has powerful processing capability, can map, count, analyze and analyze the positioning result on the mobile terminal. Publish, query. The working principle of the above positioning server refers to various positioning technologies that may be used in the field of location technology such as positioning and navigation to obtain current location information of the mobile terminal. The above time interval can be freely set by the user, including but not limited to: 5 minutes, 10 minutes, 15 minutes, etc., but cannot be less than the minimum trigger time of all types of location information. The foregoing positioning results include, but are not limited to, a cell Cell-ID; latitude and longitude coordinate data, and the like. The above statistical result 1 is a set of data including the positioning result (latitude and longitude coordinates) and its corresponding time. The statistical result can be saved in a table form. For details, refer to the example in Table 1. The above mapping means that the mobile terminal matches the positioning data with the electronic map in the LBS resource data module, and/or the theme map. The above LBS resource data module refers to various resource data related to location information and navigation information, such as: electronic map, and/or topic map; statistical analysis data; navigation information published to the network, etc. The resource data is saved in the T-Flash card. The above electronic map refers to an electronic map specially used for navigation by the mobile terminal from the LBS service provider or the network, and displays various location information of interest to the user. In particular, the electronic map can also be according to different types of locations. The information is divided into a variety of "subject maps." Above the timing, the timing threshold can be freely set by the user, for example: 1 hour, 2 hours, 3 hours, 6 hours, etc. The above certain conditions, according to different types of location information Corresponding to different triggering conditions (that is, the threshold corresponding to the type of the hotspot position mentioned above). The above statistical result 2 refers to the mobile terminal counting the location information that satisfies the triggering condition (that is, the location access amount satisfying the condition is increased by 1). And analyze it to get a recommendation value or leaderboard of a hotspot type location, and publish it to the network to guide mobile communication terminal users to obtain more convenient and fair products and monthly services. Among them, the above analysis method can also The age, sex, income, and other factors of the mobile communication terminal users are taken into consideration. A flowchart of a method for acquiring statistics of the first type of navigation information in the preferred embodiment of the present invention. As shown in FIG. 10, the method for acquiring the first type of navigation information mainly includes the following processing: Step S1002: The GPS switch module 302 controls the GPS module 301. The GPS module 301 sends a positioning request to the positioning server 100, and receives the positioning result fed back by the positioning server 100. Step 4: S1004: The operation module 303 processes the feedback result returned by the operation, and uniformly presents the latitude and longitude coordinates; Step S1006: The statistics module 304 saves the statistical positioning result (latitude and longitude coordinate data) and its corresponding time in the form of Table 1, and sends it to the LBS server 200 through the sending module 305; Step S1008: Received the returned by the LBS server 200 After the notification of the location result has been received, the clearing module 307 automatically clears various positioning data and statistics stored on the mobile terminal 300. Step S1010: The mapping module 203 of the LBS server 200 feeds back the mobile terminal 300 received by the receiving module 201. The statistical result related to the location information is matched with the electronic map in the LBS resource database 202, and/or the topic map. Step S1012: The statistics module 204 separately counts and satisfies according to different trigger conditions corresponding to different types of location information. Position information of the trigger condition; The above preferred embodiment is described below with reference to FIG. 11. The above step S1012 mainly includes the following processing (step S1102-step S1116): Step S1102: The mobile terminal 300 periodically transmits the same to the LBS server 200. Positioning result in time period and its corresponding time; Step S1104: Position information confirmer Block 2040 confirms that the mobile terminal in chronological order falls within this time period hotspot location, and the data in Table 2 in the form of acknowledgment of save. Step S1106: The determining sub-module 2042 is consistent according to whether the hotspot location corresponding to the first time point is consistent with the hotspot location corresponding to the last time point of the previous time period; Step S1108: If yes, modifying the hotspot location start time is The start time of the statistics in the previous time period; if not, the hot spot position corresponding to the first time point of the current time period is used as the starting point of one round of judgment, and a new round of judgment is started; Step S1110: Judging the first If the hotspot location corresponding to the time point is the same hotspot location as the next time point; if yes, go to step S1112, otherwise, go back to step S1108, the location type of the current hotspot location, restart one Round judgment. Step S1112: If it is the same hot spot position, the subsequent hot spot positions are sequentially determined in chronological order until not the same hot spot position. Step S1114: determining whether the start to end time range of the mobile terminal 300 located at the hot spot location reaches a corresponding trigger condition; Step S 1116: After the trigger condition is reached, the statistics sub-module 2044 adds the visit amount of the hotspot location.

1„ 步骤 S 1014: 分析模块 205对统计得出的热点位置访问量进行分析， 得 出一个热点类型位置的推荐值 /排行榜，并由发布模块 206将统计分析得到的 位置访问量及热点类型位置的推荐值 /排行榜发布到网络中， 以供移动通信终 端用户查询； 步骤 S 1016: 查询模块 306通过 GPRS、 3G等方式， 连接网络查询移动 通信终端用户感兴趣的热点位置信息， 包括热点位置访问量、 热点类型位置 的推荐值 /排行榜等。 通过上述实施例， 移动终端定时地将将其位置数据及位置数据对应的时 间信息发送至 LBS月艮务器， LBS月艮务器统计位置数据及其对应的时间信息以 获取导航信息。 釆用该方案能够实时更新热点位置访问量， 并且这种统计方 式非常的公正可信， 不存在虚假成分， 能为移动通信终端用户提供一个较为 准确的导航信息。 其次描述第二种实施方式。 优选地， 上述步骤 S904可以进一步包括以下处理： 1 。 Step S 1014: The analysis module 205 analyzes the statistically obtained hot spot location access amount, and obtains a recommended value/leader list of a hot spot type location, and the location access amount and hotspot type obtained by the publishing module 206 for statistical analysis. The recommended value/the leaderboard of the location is posted to the network for the mobile communication terminal user to query; Step S1016: The query module 306 connects to the network to query the hotspot location information of the mobile communication terminal user, including the hotspot, through GPRS, 3G, or the like. The location access amount, the recommended value of the hotspot type location, the leaderboard, etc. According to the above embodiment, the mobile terminal periodically sends the time information corresponding to the location data and the location data to the LBS server, and the LBS server statistics. Location data and its corresponding time information to obtain navigation information. 该This scheme can update the hot spot location access in real time, and this statistical method is very fair and credible, there is no false component, and it can provide a comparison for mobile communication terminal users. Accurate navigation information. Next, the second embodiment will be described. Alternatively, the above-described step S904 may further include the following processing:

( 1 ) 移动终端实时将收集到的位置数据与地理信息进行匹配， 确定热 点位置； (1) The mobile terminal matches the collected location data with the geographic information in real time to determine the hot spot location;

( 2 ) 移动终端按照时间顺序分别统计热点位置的访问量； 在优选实施过程中， 上述步骤可以包括以下处理： 移动终端判断其位于 热点位置的时长是否大于与热点位置的类型相对应的门限； 如果是， 移动终 端对热点位置的当前访问量加 1。 (2) The mobile terminal separately counts the access amount of the hotspot location according to the chronological order; in the preferred implementation process, the foregoing steps may include the following steps: the mobile terminal determines whether the duration of the hotspot location is greater than a threshold corresponding to the type of the hotspot location; If so, the mobile terminal adds 1 to the current amount of access to the hotspot location.

( 3 ) 移动终端将热点位置及其访问量定时上报至网络服务提供平台， 以使网络服务提供平台对各个移动终端上报的信息统计获取导航信息。 以下结合实例详细描述该实施方式。 在具体实施过程中， 移动终端的 GPS模块处于 艮务状态时， 按照一定的 时间间隔持续不断地向定位月艮务器发送定位请求， 定位月艮务器将运算得出的 定位结果反馈给移动终端。 移动终端对返回的定位结果进行处理， 并对处理 后得出的经纬度坐标等数据进行统计。 移动终端将统计结果 1映射到保存在 移动终端 LBS资源数据模块中的电子地图上，定时地按一定条件对映射结果 进行统计， 并将其自己最终的统计结果 2发布到网络中（即网络服务提供商， 也可称为网络服务提供平台），网络服务提供商可以收集各个移动终端上报的 以便于其他移动通信终端用户进行查询。 其中， 上述移动终端， 上述定位服务器的工作原理， 上述时间间隔， 上 述定位结果， 统计结果 1 , 统计结果 2等 ^既念均已描述， 此处不再赞述。 图 12 是 居本发明优选实施例的第二种导航信息的统计获取方法的流 程图。 如图 12所示， 第二种导航信息的获取方法主要包括： 步骤 S 1202: GPS开关模块 402控制 GPS模块 401开启， GPS模块 401 向定位艮务器 100发送定位请求， 并接收定位艮务器 100反馈回来的定位结 果； 步 4聚 S 1204: 运算模块 403处理反馈回来的定位结果， 统一以经纬度坐 标呈现； 步骤 S 1206: 统计模块 404将统计的定位结果 （经纬度坐标数据） 及其 对应时间以表 1形式保存； 步骤 S 1208: 映射模块 406将定位数据与 LBS资源数据模块 405中的电 子地图， 和 /或主题地图进行匹配。 步骤 S 1210: 统计模块 407定时地才艮据不同类型位置信息对应的不同触 发条件， 按照时间顺序分别统计满足触发条件的位置信息； 以下结合图 13描述上述优选实施方式， 上述步 4聚 S 1210主要包括以下 处理 (步 4聚 S 1302-步 4聚 S 1314 ): 步骤 S 1302:位置信息确认子模块 4070按时间顺序确认移动终端在该时 间周期内落入的热点位置， 并把确认后的数据以表 2的形式保存。 步 4聚 S 1304:判断子模块 4072判断本时间周期的第一个时间点对应的热 点位置是否与上一个时间周期的最后一个时间点对应的热点位置一致； 步骤 S 1306: 如果是， 则修改该热点位置起始时间为上一时间周期内统 计的起始时间， 否则， ^！夺本次时间周期的第一个时间点对应的热点位置作为 一轮判断的起点， 开始一轮新的判断； 步骤 S 1308: 判断第一个时间点对应的热点位置与下一个时间点对应的 热点位置是否是同一个热点位置； 若不是同一个热点位置， 则才艮据当前热点 位置的位置类型， 重新开始一轮判断。 步骤 S 1310: 若是同一个热点位置， 则按时间顺序依次判断其后的热点 位置， 直到不是同一个热点位置为止。 步骤 S 1312： 此时判断移动终端 400位于这个热点位置的起始到终止时 间范围是否达到相应的触发条件； 步骤 S 1314： 达到触发条件则统计子模块 4074将该热点位置的访问量加(3) The mobile terminal periodically reports the location of the hotspot and the amount of the access to the network service providing platform, so that the network service providing platform obtains the navigation information for the information reported by each mobile terminal. This embodiment will be described in detail below with reference to examples. In the specific implementation process, when the GPS module of the mobile terminal is in the service state, the positioning request is continuously sent to the positioning server according to a certain time interval, and the positioning server obtains the operation result. The positioning result is fed back to the mobile terminal. The mobile terminal processes the returned positioning result, and performs statistics on the latitude and longitude coordinates and the like obtained after the processing. The mobile terminal maps the statistical result 1 to the electronic map stored in the LBS resource data module of the mobile terminal, periodically counts the mapping result according to certain conditions, and publishes its own final statistical result 2 to the network (ie, the network service) The provider, which may also be referred to as a network service providing platform, may collect the reports reported by the respective mobile terminals to facilitate the query by other mobile communication terminal users. The above mobile terminal, the working principle of the positioning server, the time interval, the positioning result, the statistical result 1, the statistical result 2, etc. have been described, and are not described here. FIG. 12 is a flowchart of a second method for acquiring statistics of navigation information according to a preferred embodiment of the present invention. As shown in FIG. 12, the method for acquiring the second navigation information mainly includes: Step S1202: The GPS switch module 402 controls the GPS module 401 to be enabled, and the GPS module 401 sends a positioning request to the positioning server 100, and receives the positioning server. 100. The feedback result returned by the step 100; Step 4: S12: The operation module 403 processes the feedback result returned by the operation, and uniformly presents the latitude and longitude coordinates; Step S1206: The statistical module 404 calculates the statistical positioning result (latitude and longitude coordinate data) and its corresponding time Saved in the form of Table 1; Step S 1208: The mapping module 406 matches the positioning data with the electronic map, and/or the subject map in the LBS resource data module 405. Step S1210: The statistics module 407 periodically counts the location information that satisfies the trigger condition according to the different trigger conditions corresponding to the different types of location information. The foregoing preferred embodiment is described below with reference to FIG. The method includes the following processing: Step S1302: The location information confirmation sub-module 4070 confirms the hotspot position that the mobile terminal falls within the time period in chronological order, and confirms the hotspot position. The data is saved in the form of Table 2. Step 4: S1304: The determining sub-module 4072 determines whether the hotspot position corresponding to the first time point of the current time period is consistent with the hot spot position corresponding to the last time point of the previous time period; Step S 1306: If yes, the start time of the hotspot location is modified as the starting time counted in the previous time period, otherwise, ^! The hotspot position corresponding to the first time point of the current time period is used as a starting point of a round of judgment, and a new round of judgment is started; Step S1308: determining that the hotspot position corresponding to the first time point corresponds to the next time point Whether the hotspot location is the same hotspot location; if it is not the same hotspot location, then a round of judgment is restarted according to the location type of the current hotspot location. Step S 1310: If it is the same hot spot position, the subsequent hot spot positions are sequentially determined in chronological order until not the same hot spot position. Step S 1312: At this time, it is determined whether the start-to-end time range of the mobile terminal 400 at the hotspot location reaches a corresponding trigger condition; Step S 1314: After the trigger condition is reached, the statistics sub-module 4074 adds the visitor amount of the hotspot location.

1„ 步骤 S 1212: 分析模块 408对统计得出的热点位置访问量进行分析， 并 由发布模块 409将分析结果发布到网络服务提供商， 网络服务提供商根据各 个移动终端提供的分析结果得到导航信息， 以供移动通信终端用户查询； 步骤 S 1214: 查询模块 410通过 GPRS、 3G等方式， 连接网络查询移动 通信终端用户感兴趣的热点位置信息， 包括但不限于： 热点位置访问量统计 值、 热点类型位置的推荐值 /排行榜等； 步骤 S 1216: 清除模块 411定时地自动清除 LBS资源数据模块 405中的 各种定位数据及统计结果。 通过上述实施例， 移动终端定时地将统计分析结果提供给网络服务提供 商， 网络服务提供商根据各个移动终端提供的数据得到上述导航信息。 釆用 该方案能够实时更新热点位置访问量， 并且这种统计方式非常的公正可信， 不存在虚假成分， 能为移动通信终端用户提供一个较为准确的导航信息。 综上所述， 借助本发明提供的上述两种技术方案， 均可以实时更新热点 位置访问量， 并且这种统计方式非常的公正可信， 不存在虚^ _成分， 能为移 动通信终端用户提供一个较为准确的导航信息。 显然， 本领域的技术人员应该明白， 上述的本发明的各模块或各步骤可 以用通用的计算装置来实现， 它们可以集中在单个的计算装置上， 或者分布 在多个计算装置所组成的网络上， 可选地， 它们可以用计算装置可执行的程 序代码来实现， 从而， 可以将它们存储在存储装置中由计算装置来执行， 并 且在某些情况下， 可以以不同于此处的顺序执行所示出或描述的步骤， 或者 将它们分别制作成各个集成电路模块， 或者将它们中的多个模块或步骤制作 成单个集成电路模块来实现。 这样， 本发明不限制于任何特定的硬件和软件 结合。 以上所述仅为本发明的优选实施例而已， 并不用于限制本发明， 对于本 领域的技术人员来说， 本发明可以有各种更改和变化。 凡在本发明的 ^"神和 原则之内， 所作的任何修改、 等同替换、 改进等， 均应包含在本发明的保护 范围之内。 1 。 Step S 1212: The analysis module 408 analyzes the statistically obtained hot spot location access, and the publishing module 409 publishes the analysis result to the network service provider, and the network service provider obtains navigation according to the analysis result provided by each mobile terminal. The information is provided for the mobile communication terminal user to query; Step S1214: The query module 410 connects to the network to query the hotspot location information of the mobile communication terminal user through GPRS, 3G, etc., including but not limited to: hotspot location access amount statistics, The recommendation value/the leaderboard of the hotspot type location, etc.; Step S1216: The clearing module 411 automatically clears various positioning data and statistical results in the LBS resource data module 405 periodically. Through the above embodiment, the mobile terminal periodically statistically analyzes the result. Provided to the network service provider, the network service provider obtains the navigation information according to the data provided by each mobile terminal. The program can update the hot spot location access in real time, and the statistical method is very fair and credible, and there is no false component. , can provide mobile communication terminal users A more accurate navigation information. In summary, with the above two technical solutions provided by the present invention, the hot spot location access amount can be updated in real time, and the statistical method is very fair and credible, and there is no virtual ^ _ component. It can provide a more accurate navigation information for the mobile communication terminal user. Obviously, those skilled in the art should understand that the above modules or steps of the present invention can be Implemented by a general-purpose computing device, which may be centralized on a single computing device or distributed over a network of computing devices, optionally, they may be implemented by program code executable by the computing device, such that They may be stored in a storage device by a computing device, and in some cases, the steps shown or described may be performed in an order different than that herein, or separately fabricated into individual integrated circuit modules. Alternatively, multiple modules or steps of them can be implemented as a single integrated circuit module. Thus, the invention is not limited to any specific combination of hardware and software. The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the scope of the present invention are intended to be included within the scope of the present invention.

Claims

权 利 要 求 书 一种导航信息的统计获取***， 包括： Claims A statistical acquisition system for navigation information, including:

移动终端模块， 用于定时将其位置数据及所述位置数据对应的时间 信息发送至位置服务模块；  a mobile terminal module, configured to periodically send its location data and time information corresponding to the location data to a location service module;

所述位置月艮务模块， 用于统计所述位置数据及其对应的时间信息以 获取导航信息；  The location server module is configured to collect the location data and corresponding time information to obtain navigation information;

定位艮务模块， 用于定时接收所述移动终端模块的定位请求， 对所 述移动终端模块进行定位处理， 并将运算得到的定位结果发送至所述移 动终端模块；  a positioning service module, configured to periodically receive a positioning request of the mobile terminal module, perform positioning processing on the mobile terminal module, and send the calculated positioning result to the mobile terminal module;

所述移动终端模块， 还用于处理所述定位结果得到所述位置数据。 根据权利要求 1所述的***， 其中， 所述移动终端模块包括：  The mobile terminal module is further configured to process the positioning result to obtain the location data. The system of claim 1, wherein the mobile terminal module comprises:

GPS模块， 用于定时向所述定位艮务模块发送定位请求， 并接收所 述定位艮务模块返回的定位结果；  a GPS module, configured to periodically send a positioning request to the positioning service module, and receive a positioning result returned by the positioning service module;

GPS开关模块， 用于控制所述 GPS模块的开启与关闭。 根据权利要求 1所述的***， 其中， 所述移动终端模块包括：  A GPS switch module is configured to control opening and closing of the GPS module. The system of claim 1, wherein the mobile terminal module comprises:

存储模块， 用于存储所述位置数据及其对应的时间信息； 清除模块， 用于在所述位置服务模块发起接收到所述位置数据及其 对应的时间信息的通知时， 删除所述位置数据及其对应的时间信息。 根据权利要求 1所述的***， 其中， 所述位置服务模块包括：  a storage module, configured to store the location data and corresponding time information; and a clearing module, configured to delete the location data when the location service module initiates receiving the notification of the location data and its corresponding time information And its corresponding time information. The system according to claim 1, wherein the location service module comprises:

映射模块， 用于实时将收集到的位置数据与地理信息进行匹配， 以 确定热点位置；  a mapping module, configured to match the collected location data with the geographic information in real time to determine a hotspot location;

统计模块， 用于按照时间顺序分别统计所述热点位置的访问量； 通知模块， 用于在接收到所述位置数据及其对应的时间信息时， 向 所述移动终端模块发送通知信息。 一种导航信息的统计获取***， 包括： 移动终端模块， 用于确定其位置数据对应的热点位置及所述热点位 置的访问量， 并将所述获取的热点位置及其访问量定时上报至网络服务 提供模块； The statistic module is configured to separately count the access amount of the hotspot location according to the chronological order; the notification module is configured to send the notification information to the mobile terminal module when receiving the location data and the corresponding time information. A statistical acquisition system for navigation information, comprising: a mobile terminal module, configured to determine a hotspot location corresponding to the location data and a visitor quantity of the hotspot location, and report the obtained hotspot location and the access amount thereof to the network service providing module;

所述网络服务提供模块， 用于对所述移动终端模块上报的热点位置 及其访问量的信息进行统计， 获取导航信息；  The network service providing module is configured to perform statistics on the hotspot location and the amount of access reported by the mobile terminal module, and obtain navigation information;

定位艮务模块， 用于定时接收所述移动终端模块的定位请求， 对所 述移动终端模块进行定位处理， 并将运算得到的定位结果发送至所述移 动终端模块；  a positioning service module, configured to periodically receive a positioning request of the mobile terminal module, perform positioning processing on the mobile terminal module, and send the calculated positioning result to the mobile terminal module;

所述移动终端模块， 还用于处理所述定位结果得到所述位置数据。 根据权利要求 5所述的***， 其中， 所述移动终端模块包括：  The mobile terminal module is further configured to process the positioning result to obtain the location data. The system of claim 5, wherein the mobile terminal module comprises:

GPS模块， 用于定时向所述定位艮务模块发送定位请求， 并接收所 述定位艮务器返回的定位结果；  a GPS module, configured to periodically send a positioning request to the positioning service module, and receive a positioning result returned by the positioning server;

GPS开关模块， 用于控制所述 GPS模块的开启与关闭。 根据权利要求 5所述的***， 其中， 所述移动终端模块包括：  A GPS switch module is configured to control opening and closing of the GPS module. The system of claim 5, wherein the mobile terminal module comprises:

位置月艮务资源数据模块， 用于存储所述位置数据及其对应的时间信 息；  a location resource data module, configured to store the location data and corresponding time information;

清除模块， 用于定时删除所述位置数据及其对应的时间信息。 根据权利要求 5所述的***， 其中， 所述移动终端模块包括：  The clearing module is configured to periodically delete the location data and corresponding time information. The system of claim 5, wherein the mobile terminal module comprises:

映射模块，用于实时将收集到的所述位置数据与地理信息进行匹配 , 以确定热点位置；  a mapping module, configured to match the collected location data with geographic information in real time to determine a hotspot location;

统计模块， 用于按照时间顺序分别统计所述热点位置的访问量。 一种导航信息的统计获取方法， 包括：  The statistics module is configured to separately count the amount of access of the hotspot location in chronological order. A statistical acquisition method for navigation information, including:

定时确定移动终端的位置数据及所述位置数据对应的时间信息； 统计所述位置数据及其对应的时间信息以确定导航信息。 根据权利要求 9所述的方法， 其中， 定时确定移动终端的位置数据及所 述位置数据对应的时间信息包括：  Timing data of the mobile terminal and time information corresponding to the location data are periodically determined; the location data and corresponding time information are counted to determine navigation information. The method according to claim 9, wherein the determining the location data of the mobile terminal and the time information corresponding to the location data are:

所述移动终端定时向定位艮务器发送定位请求； 所述定位艮务器对所述移动终端进行定位处理， 并将运算得到的定 位结果发送至所述移动终端； The mobile terminal periodically sends a location request to the location server; The positioning server performs positioning processing on the mobile terminal, and sends the calculated positioning result to the mobile terminal;

所述移动终端处理所述定位结果得到所述位置数据， 并上 给位置 服务器。  The mobile terminal processes the positioning result to obtain the location data, and sends the location data to the location server.

11. 根据权利要求 9或 10所述的方法， 其中， 统计所述位置数据及其对应的 时间信息以确定所述导航信息包括： The method according to claim 9 or 10, wherein the statistic of the location data and its corresponding time information to determine the navigation information comprises:

所述位置服务器实时将收集到的所述位置数据与地理信息进行匹 配， 确定热点位置；  The location server matches the collected location data with the geographic information in real time to determine a hotspot location;

所述位置月艮务器按照时间顺序分别统计所述热点位置的访问量； 所述位置服务器根据所述热点位置及其访问量统计获取所述导航信 息。  The location server separately counts the amount of access of the hotspot location in chronological order; the location server obtains the navigation information according to the hotspot location and its visitor statistics.

12. 根据权利要求 11所述的方法， 其中， 所述位置服务器分别统计所述热点 位置的访问量包括： The method according to claim 11, wherein the location server separately counts the access amount of the hotspot location includes:

所述位置艮务器判断所述移动终端位于所述热点位置的时长是否大 于与所述热点位置的类型相对应的门限；  The location server determines whether the duration of the mobile terminal located at the hotspot location is greater than a threshold corresponding to the type of the hotspot location;

如果是， 所述位置 艮务器对所述热点位置的访问量加 1。  If so, the location server increments the number of visits to the hotspot location by one.

13. 根据权利要求 9或 10所述的方法， 其中， 统计所述位置数据及其对应的 时间信息以确定所述导航信息包括： The method according to claim 9 or 10, wherein the statistic of the location data and its corresponding time information to determine the navigation information comprises:

所述移动终端实时将收集到的所述位置数据与地理信息进行匹配， 确定所述热点位置；  The mobile terminal matches the collected location data with the geographic information in real time to determine the hotspot location;

所述移动终端按照时间顺序分别统计所述热点位置的访问量； 所述移动终端将所述热点位置及其访问量定时上 4艮至网络月艮务提供 平台， 以使所述网络服务提供平台对各个所述移动终端上报的信息统计 获取所述导航信息。  The mobile terminal separately counts the access amount of the hotspot location according to the chronological order; the mobile terminal periodically timeps the hotspot location and the access amount thereof to the network monthly service providing platform, so that the network service providing platform The navigation information is obtained by statistically reporting information reported by each of the mobile terminals.

14. 根据权利要求 13所述的方法， 其中， 所述移动终端分别统计所述热点位 置的访问量包括： The method according to claim 13, wherein the mobile terminal separately counting the access amount of the hotspot location comprises:

所述移动终端判断其位于所述热点位置的时长是否大于与所述热点 位置的类型相对应的门限；  Determining, by the mobile terminal, whether the duration of the hotspot location is greater than a threshold corresponding to the type of the hotspot location;

如果是， 所述移动终端对所述热点位置的当前访问量加 1。  If yes, the mobile terminal adds 1 to the current visit amount of the hotspot location.